Dynamics of translation by single ribosomes through mRNA secondary structures
Open Access
- 31 March 2013
- journal article
- research article
- Published by Springer Science and Business Media LLC in Nature Structural & Molecular Biology
- Vol. 20 (5), 582-588
- https://doi.org/10.1038/nsmb.2544
Abstract
The secondary structure of mRNAs can slow or even halt protein synthesis. Single-molecule FRET studies of distinct steps in the translation elongation cycle now reveal that unfolding of mRNA secondary structures is more closely coupled to tRNA dissociation from the ribosomal exit site, with little effect on tRNA translocation within the ribosome. During protein synthesis, the ribosome translates nucleotide triplets in single-stranded mRNA into polypeptide sequences. Strong downstream mRNA secondary structures, which must be unfolded for translation, can slow or even halt protein synthesis. Here we used single-molecule fluorescence resonance energy transfer to determine reaction rates for specific steps within the elongation cycle as the Escherichia coli ribosome encounters stem-loop or pseudoknot mRNA secondary structures. Downstream stem-loops containing 100% GC base pairs decrease the rates of both tRNA translocation within the ribosome and deacylated tRNA dissociation from the ribosomal exit site (E site). Downstream stem-loops or pseudoknots containing both GC and AU pairs also decrease the rate of tRNA dissociation, but they have little effect on tRNA translocation rate. Thus, somewhat unexpectedly, unfolding of mRNA secondary structures is more closely coupled to E-site tRNA dissociation than to tRNA translocation.Keywords
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